JP2013197875A - Communication device and base station device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication device and a base station device, which provide an off-road connection and reduce management load of a core network to an off-road connection.SOLUTION: The communication device includes: an interface connecting to a wired transmission system; establishing means that establishes a session with the base station device of a mobile communication network via a communication network including the wired transmission system; requesting means that requests setting of a bearer for the off-road to the base station device; and setting means that sets the bearer for the off-load reaching a device connected to the network other than the core network of the mobile communication network via the base station device, where the requesting means transmits information indicating connection with the wired transfer system when requesting setting of the bearer for the off-road to the base station device.

Description

  The present invention relates to a base station apparatus of a mobile communication network and a communication apparatus connected to the base station apparatus.

  A mobile communication network that conforms to various standards defined by a standardization organization such as 3GPP includes an access network including base station apparatuses and a core network that manages mobile radio terminals and performs signal routing. The mobile radio terminal communicates with the base station apparatus by radio, sets up a bearer with the node apparatus of the core network via the base station apparatus, and transmits / receives information using the bearer. The mobile communication network has a data base of mobile radio terminals, and provides services only to mobile radio terminals registered in the data base. Note that the mobile wireless terminal registered in the data base of the mobile communication network is a terminal possessed by a user who has contracted with the mobile communication carrier.

  Patent Document 1 discloses a femto cell access point connected to a node device of a core network of a mobile communication network via an IP network such as the Internet. Non-Patent Document 1 discloses that a femto cell access point accesses a mobile radio terminal to another network that does not go through the core network in addition to accessing the core network (offload). For example, a configuration for providing Internet access is disclosed. Specifically, a femto cell access point and a local gateway (L-GW) are connected, and an offload bearer is set between the mobile radio terminal and the L-GW, and traffic to be offloaded is set. The L-GW transmits and receives with other networks such as the Internet.

Special table 2011-523251 gazette

3GPP TR 23.829, “Local IP Access and Selected IP Traffic Offload (LIPA-SIPTO)”, V10.0.1, October 2011

  The femto cell access point must perform complex processing such as handover control and authentication processing for connecting to the core network. In addition, the femto cell access point is also connected to the femto cell access point. It is necessary to provide an apparatus for performing processing related to the connection of the apparatus, which is expensive. In addition, the femto cell access point only provides services to mobile radio terminals registered in the data base of the mobile communication network through the same radio interface as the base station of the mobile communication network.

  In addition, a mobile communication network conforming to LTE (Long Term Evolution) maintains at least one EPS bearer for the mobile radio terminal while the mobile radio terminal is attached to the mobile communication network. However, in order to reduce the consumption of unnecessary radio resources and the power consumption of the mobile radio terminal, if there is no traffic, only the section inside the core network of the bearer is maintained, and other parts, that is, from the mobile radio terminal Resources for the section from the base station to the core network are released. Therefore, every time information to be transmitted / received by the bearer is generated, the core network reconfigures the released section and sends a control signal for rerelease to the base station device, femto cell access point, , Must be sent to the L-GW.

  The present invention provides a communication device and a base for providing a core network or an offload connection of a mobile communication network to a terminal in a certain area such as a home and reducing the management load of the core network for the offload connection. A station apparatus is provided.

  According to one aspect of the present invention, an interface for connecting to a wired transmission system, an establishing means for establishing a session with a base station device of a mobile communication network via a communication network including the wired transmission system, and offloading to the base station device Requesting means for requesting setting of a bearer for communication, and setting means for setting on the session the bearer for offload that reaches the device connected to a network other than the core network of the mobile communication network via the base station device The request means transmits information indicating connection to the wired transmission system to the base station device when requesting the base station device to set up the offload bearer. It is characterized by.

  According to one aspect of the present invention, a base station apparatus of a mobile communication network including a core network, an interface connected to the communication network, an establishing means for establishing a session with the communication apparatus via the communication network, and the communication Upon receiving an offload bearer setting request from a device to a device connected to a network other than the core network of the mobile communication network, setting means for setting the offload bearer on the session; The setting means receives the information indicating that the communication apparatus is connected to a wired transmission system when the setting request for the offload bearer is set, and sets the offload bearer Is not notified to the core network of the mobile communication network.

  An offload connection can be set, and the management load of the core network for the offload connection can be reduced.

The block diagram of the whole network by one Embodiment. The protocol block diagram between the communication apparatus and base station apparatus by one Embodiment. The sequence diagram of the bearer establishment with respect to the communication apparatus by one Embodiment. FIG. 3 is a diagram illustrating a method of using a packet header according to an embodiment.

  Hereinafter, exemplary embodiments of the present invention will be described with reference to the drawings. In the following drawings, components that are not necessary for the description of the embodiments are omitted from the drawings.

  FIG. 1 is a configuration diagram of a network according to the present embodiment. In FIG. 1, a base station apparatus 2 and a core network 5 are mobile communication networks that comply with various standards provided by standardization organizations such as 3GPP provided by mobile communication carriers. The mobile radio terminal 3 is a terminal of a subscriber who subscribes to the mobile communication carrier or another mobile communication carrier that can use the mobile communication network of the mobile communication carrier. Can be connected wirelessly. In the following description, the base station apparatus 2 is an eNB compliant with the LTE standard, and the core network 5 is also described as a so-called EPC (Evolved Packet Core). The present invention can also be applied to a mobile communication network that complies with the standard.

  The mobile radio terminal 3 is a so-called mobile phone such as a smartphone. For example, after the power is turned on, the mobile radio terminal 3 performs an attach process to the mobile communication network, and an EPS (Evolved Packet System) bearer is passed through the base station apparatus 2 And setting the IP address from the mobile communication network. Here, between the mobile radio terminal 3 and the base station apparatus 2, the basic bearer is transmitted on a logical channel set by radio.

  The communication device 1 is connected to the base station device 2 via the IP network 4 that communicates using the IP protocol. For the connection between the IP network 4 and the communication device 1, for example, PON (Passive Optical Network), ADSL (Asymmetric Digital Subscriber Line), and other various dedicated lines using optical fibers and similar wired transmission systems are used. Available. In the present embodiment, a PON including an optical line terminator (OLT) 8 is used. Therefore, the communication apparatus 1 includes an optical line termination unit (ONU) connected to the OLT 8. However, the present invention can use other wired transmission systems.

  The IP network 4 is a network that transfers IP packets transparently. In the present embodiment, the communication device 1 establishes a session with the base station device 2 via the IP network 4, and on this session, the base station device 2 and the communication device 1 communicate with the communication device 1 and the core A bearer that connects to the network 5 is set. That is, instead of the logical channel set wirelessly between the mobile radio terminal 3 and the base station device 2, the communication device 1 and the base station device 2 set up a session via the IP network 4 and carry the bearer. In this embodiment, the communication apparatus 1 and the base station apparatus 2 shall set the session according to L2TP (Layer 2 Tunneling Protocol). The local gateway (L-GW) 4 is an end point of a bearer for offload traffic, and processes traffic transmitted to and received from the Internet 7 without passing through the core network 5 from the communication device 1. That is, the communication device 1 sets a bearer that is directed to the P-GW (packet data network gateway) of the core network 5 and a bearer that is directed to the L-GW 6, and uses them in accordance with information transmission destinations. Become.

  In this embodiment, establishing a session means that the communication device 1 and the base station device 2 can recognize individual communications in order to transmit a bearer. Further, in the following description, a connection and a session are distinguished from each other according to the terminology of L2TP. However, the session in this embodiment may be called a connection, and the scope of the present invention is not defined only by the difference between the term “session”.

  FIG. 2 is a schematic protocol configuration diagram in the present embodiment. The physical layers of the communication device 1 and the base station device 2 are respectively terminated at the physical layer of the IP network 4. That is, the physical layers of the communication device 1 and the base station device 2 do not have to be the same. The IP network 4 transfers IP packets transparently, and thus the IP layers of the communication device 1 and the base station device 2 communicate with each other. The L2TP layer of the communication device 1 and the base station device 2 sets a connection in accordance with the provisions of RFC3931, and sets a session for the set connection. The radio protocol layers of the communication device 1 and the base station device 2 set up a bearer using a session. Specifically, the radio protocol layer of the present embodiment provides RLC (Radio Link Control) and PDCP (Packet Data Convergence Protocol) layer functions according to the LTE standard. That is, in the present embodiment, the functions of the MAC (Media Access Control) and the physical layer according to the LTE standard are replaced with the physical layer that interfaces with the IP network 4, the IP layer, and the L2TP layer. However, communication in other layers is performed according to the LTE standard.

  Similarly to the mobile radio terminal 3, the communication device 1 includes a SIM (Subscriber Identity Module), and the SIM has an IMSI (International Mobile Subscriber Identity) and authentication assigned by a mobile communication operator. The secret value for is stored. That is, the communication device 1 is a communication device registered in the mobile communication network, like the mobile radio terminal 3, and the communication device 1 is based on the information stored in the SIM, like the mobile radio terminal 3. A basic bearer that reaches the core network 5 via the base station device 2 is set, and an IP address is acquired from the mobile communication network. Details will be described below.

  First, in this embodiment, the OLT 8 authenticates the communication device 1. As an authentication method, for example, the MAC address of the communication device 1 can be stored in the OLT 8 and the OLT 8 can be authenticated by the MAC address transmitted by the communication device 1. Further, authentication information such as an identifier and a password of the communication device 1 is stored in the OLT 8, and authentication can be performed by the communication device 1 transmitting the authentication information to the OLT 8. Note that the authentication information may be stored in the RADIUS server instead of being stored in the OLT 8, and the authentication may be performed by the OLT 8 transmitting the authentication information acquired from the communication device 1 to the RADIUS server. Furthermore, a plurality of authentications can be used instead of one authentication method.

  Next, processing after the OLT 8 authenticates the communication device 1 will be described with reference to FIG. The communication device 1 establishes a first L2TP connection with the base station device 2 in S1. Specifically, the communication device 1 transmits a connection request message to the base station device 2, the base station device 2 transmits a response message to the communication device 1, and the communication device 1 transmits a connection message to the base station device 2. By doing so, the connection is established. Subsequently, in S2, the communication device 1 establishes a first session on the first L2TP connection established with the base station device 2. Specifically, the communication device 1 transmits a session request message to the base station device 2, the base station device 2 transmits a response message to the communication device 1, and the communication device 1 transmits a connection message to the base station device 2. As a result, the first session is established. Each session is distinguished by a set of L2TP connection and session identifier.

  In S3, the communication device 1 transmits an attach request message to the base station device 2, and using this as a trigger, the first bearer from the communication device 1 via the base station device 2 to the core network 5 Set on the first session. More specifically, a PDN connection is established, and a first bearer is set on the established PDN connection. The process in S3 is the same as the process when the mobile radio terminal 3 attaches to the mobile communication network, and details thereof are omitted. However, the APN (access point name) to which the first bearer is connected is Registered in the home subscriber server of the core network 5. Note that the relationship between the first session and the first bearer is recognized by the communication device 1 and the base station device 2 by associating the bearer identifier assigned to the bearer with the session identifier of the first session. . In addition, in the attach process of S3, prior to the setting of the first bearer, the communication device 1 transmits the IMSI and secret value stored in the SIM to the core network 5 via the base station device 2, and the core network 5 Get certified by.

  Through the above processing, a bearer from the communication device 1 to the core network 5 via the base station device 2 is set. Next, setting of an offload bearer will be described.

  The offload bearer can be set after the bearer reaching the core network 5 is set, or can be set when, for example, offload data is generated. In any case, when the communication device 1 determines that setting of an offload bearer is necessary, the communication device 1 establishes a second L2TP connection with the base station device 2 in S4. Specifically, the communication device 1 transmits a connection request message to the base station device 2, the base station device 2 transmits a response message to the communication device 1, and the communication device 1 transmits a connection message to the base station device 2. By doing so, the connection is established. At this time, as shown in FIG. 4A, the communication apparatus 1 sets an APN value indicating that it is an L2TP connection for an offload target bearer in the host name AVP field of the L2TP control message. The base station apparatus 2 is notified that it is for off-road use.

  Subsequently, in S <b> 5, the communication device 1 establishes a second session on the second L2TP connection established with the base station device 2. Specifically, the communication device 1 transmits a session request message to the base station device 2, the base station device 2 transmits a response message to the communication device 1, and the communication device 1 transmits a connection message to the base station device 2. As a result, the second session is established. Each session is distinguished by a set of L2TP connection and session identifier. At this time, information indicating that the communication apparatus 1 is a fixed terminal connected to the wired transmission system is included in the Assigned Cookie AVP field of the L2TP control message shown in FIG. 4B. The information indicating that the terminal is a fixed terminal connected to the wired transmission system can be authentication information such as a MAC address used by the OLT 8 to authenticate the ONU 9 or the communication device 1, for example. With this configuration, for example, the base station device 2 makes an inquiry using the authentication information acquired to the OLT 8 or the RADIUS server used by the OLT 8, and the communication device 1 is, for example, a fixed terminal connected to the PON. I can confirm.

  When the communication device 1 establishes the second session for offloading with the base station device 2, in S6, the base station device 2 uses the second session in which the message requesting establishment of the PDN connection is set in S5. Send to. At this time, the authentication information can be transmitted again using the cookie field of the L2TP data message shown in FIG. In this case, the base station apparatus 2 can confirm again using the authentication information that the communication apparatus 1 is not a mobile radio terminal.

  In response to receiving the message requesting establishment of the PDN connection, the base station apparatus 2 transmits a message requesting establishment of the bearer to the L-GW 6 in S7. In addition, since the base station apparatus 2 recognizes that the second L2TP connection is for offloading by the process of S5, it can recognize the bearer using the second L2TP connection for offloading. That is, it can be recognized that it should be transmitted to the L-GW 6. The message for requesting bearer establishment includes, for example, the ONU 9 MAC address, ONU 9 authentication information, and APN indicating offload. When the L-GW 6 receives a message requesting bearer establishment, the L-GW 6 confirms that it is an offload bearer from the included APN, selects an IP address to be assigned to the communication device 1, and establishes a bearer including the selected IP address. A response message is transmitted to the base station apparatus 2 in S8.

  Upon receiving the bearer establishment response message, the base station apparatus 2 extracts and stores the IP address included in the bearer establishment response message and transmits a PDN connection establishment response message indicating that the PDN connection has been established to the communication apparatus 1 in S9. To do. Upon receiving the PDN connection establishment response message, the communication apparatus 1 transmits a PDN connection establishment confirmation message to the base station apparatus 2 in S10 for confirmation of reception. By this process, an offload PDN connection from the communication apparatus 1 to the L-GW and a bearer on the PDN connection are set. Thereafter, for example, the communication device 1 requests the base station device 2 to assign an IP address by DHCP or the like, and the base station device 2 assigns the IP address acquired from the L-GW 6 to the communication device 1 in S8. For example, an IP address assigned to the PDN connection establishment response message in S9 may be included.

  With the above configuration, the communication apparatus 1 can set a bearer via the base station apparatus 2 and receive a service from the mobile communication network, like the mobile radio terminal 3. Furthermore, a bearer to be offloaded to the Internet 7 or the like can be set without going through the core network 5 of the mobile communication network. Note that the difference between the function related to communication with the mobile communication network installed in the normal mobile radio terminal 3 and the function related to communication with the mobile communication network installed in the communication device 1 is only the physical layer and the MAC layer. For other parts, the functions implemented in the normal mobile terminal 3 can be used as they are. Therefore, the communication device 1 can be configured at low cost without requiring a complicated function such as a femto cell access point. Similarly, it is possible to add functions of the base station apparatus 2 at low cost.

  In particular, with the above configuration, the base station apparatus 2 can recognize that the communication apparatus 1 that accesses the set offload bearer via the wired transmission system is used. In this case, there is no reason to apply the existing LTE protocol for releasing radio resources and the like to the offload bearer from the communication apparatus 1 to the L-GW 6 in order to save radio resources and the like. That is, the core network 5 does not need to hold information related to the offload bearer, and thus the base station apparatus 2 does not notify the core network 5 of the setting of the offload bearer. That is, the core network 5 does not communicate with the base station apparatus 2 for the control of the offload bearer, and therefore the load on the core network 5 is not increased. Note that the setting of the bearer reaching the core network 5 needs to be notified to the core network 5, and therefore the operation of the existing LTE protocol is followed. That is, the section from the communication device 1 to the core network, that is, the section from the S-GW (serving gateway) is released according to the traffic amount. However, the bearer reaching the core network 5 can also be configured to be always secured regardless of the traffic volume, like the offload bearer. In this case, for example, the base station apparatus 2 notifies the core network 5 that the setting is an offload bearer that does not require release of resources.

  The communication device 1 may be a communication terminal itself, a device that relays communication with other communication devices, or a device that has both functions. For example, the communication device 1 is a wired interface such as a wired LAN or USB, a wireless interface such as a wireless LAN, and the like, and is connected to other desktop computers, laptop computers, tablet computers, and other personal computers, and other communication terminals. It is also possible to send and receive information. Since the communication device 1 is attached to the mobile communication network after receiving authentication from the mobile communication carrier, a computer or the like that communicates via the communication device 1 can receive services equivalent to those of the mobile wireless terminal 3. . Specifically, for example, a computer that communicates with the communication device 1 receives, via the communication device 1, a mail transmitted to the communication device 1 in a mail service provided to the communication device 1 by a mobile communication carrier. can do. In addition, it is possible to make a telecommunications carrier charge the price of a product purchased on a website on the network by an operation from a computer communicating with the communication device 1 together with a communication fee for the communication device 1. Input etc. can be omitted.

  In the above-described embodiment, the L2TP protocol is used. However, any protocol that transmits arbitrary information on the IP network, such as another tunneling protocol, can be used. In the above-described embodiment, the communication device 1 is connected to the base station device 2 via the IP network 4. However, if an IP packet is transmitted transparently, a VLAN (Virtual LAN) or the like is used. Other packet switched networks may be used.

Claims (6)

An interface for connecting to a wired transmission system;
Establishing means for establishing a session with a base station apparatus of a mobile communication network via a communication network including the wired transmission system;
Request means for requesting the base station device to set up an offload bearer;
Setting means for setting the offload bearer on the session to the device connected to a network other than the core network of the mobile communication network via the base station device;
With
The request means, when requesting the setting of the offload bearer to the base station apparatus, transmits information indicating that it is connected to the wired transmission system to the base station apparatus,
A communication device. Information indicating connection to the wired transmission system is information used by the wired transmission system to authenticate the communication device.
The communication apparatus according to claim 1. The setting means sets a bearer that reaches the core network of the mobile communication network via the base station apparatus on a session with the base station apparatus established by the establishing means,
The session and the bearer have a one-to-one correspondence.
The communication device according to claim 2. A base station apparatus for a mobile communication network including a core network,
An interface connected to a communication network;
Establishing means for establishing a session with a communication device via the communication network;
A setting unit configured to set the offload bearer on the session upon receiving an offload bearer setting request from the communication device to a device connected to a network other than the core network of the mobile communication network; ,
With
When the setting means receives information indicating that the communication apparatus is connected to a wired transmission system in the offload bearer setting request, the setting means sets the offload bearer setting to the mobile communication. Do not notify the core network of the network,
A base station apparatus. Information indicating connection to the wired transmission system is information used by the wired transmission system to authenticate the communication device.
The base station apparatus according to claim 4. Information used for authenticating the communication device received from the communication device is transmitted to the wired transmission system or an authentication device used by the wired transmission system, and the communication device is connected to the wired transmission system; Further comprising means for confirming that
The base station apparatus according to claim 5.

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